WO1998028374A1

WO1998028374A1 - Printing ink for safe marking on a data carrier

Info

Publication number: WO1998028374A1
Application number: PCT/EP1997/007009
Authority: WO
Inventors: Gerhard Mürl
Original assignee: Giesecke & Devrient Gmbh
Priority date: 1996-12-20
Filing date: 1997-12-12
Publication date: 1998-07-02
Also published as: DE19653423A1; EP0946661B1; CA2275576A1; ES2205281T3; AU5984698A; EP0946661A1; DE59710518D1; US6379779B1; ATE246231T1

Abstract

The invention relates to a printing ink containing an IR-absorbing additive which can be applied to protect documents and for machine recognition. To this end, the invention provides that graphite be used as an IR-absorbing additive.

Description

PRINT INK FOR SECURITY MARKING ON A DATA CARRIER

The invention relates to a printing ink with an IR-absorbing additive, a semi-finished product for its production and a document printed with this color.

Data carriers, such as documents, in particular value documents, such as identification cards, tickets, passports, banknotes, securities or the like, as well as other valuables are provided with security features to protect them against counterfeiting or falsification. A distinction is essentially made between two groups of security features, the first group comprising the so-called “human features”, which are designed in such a way that the authenticity of the documents of value or the objects of value can be recognized by simple sensory perception. This group in particular includes the provision of optically more variable features Colors on the documents of value or objects of value as well as the application of holograms.

In a second group, which comprises the so-called “machine features”, features are assigned to the documents of value that can usually be acquired mechanically, ie only with the aid of sensors. In the area of securities, in particular magnetically or electrically detectable features have become established Visually recognizable markings of security documents are known, but at which the wavelength with which the sensor can detect the marking lies outside the visually perceptible spectral range, for example in the infrared (IR).

In the sensors commonly used today, such an IR-absorbing marking is detected by illuminating the document with an IR-emitting light source and the reflectance, that is, the light of the irradiation wavelength emanating from the document or the marking due to this illumination is measured. A document or a printed marking is considered IR-absorbing if it falls below a certain, defined reflectance value. A reflectance value of 50%, for example, can be set as the threshold above which a document or the marking is considered to be IR absorbing.

In order to achieve or fall below the remission values mentioned above, a document must contain a certain amount of the IR-absorbing additive, e.g. in one of his inks.

For marking data carriers, a security document is known from GB 1 534 403, which is printed with two colors that appear identical in the visible spectral range, the two colors differing in their infrared absorption behavior. For this purpose, carbon black is added to a pigmented printing ink, for example, as an IR-absorbing additive. The addition of carbon black to inks on the one hand leads to the fact that they appear darker or "dirtier", on the other hand it is necessary to add sufficient soot to the printing ink to adequately identify the printing inks, so that the darkening or "soiling" of the printing inks when using carbon black as an IR-absorbing additive is unavoidable, and the printing ink is significantly impaired in its visible color effect. The direct result of this is that only a very limited range of colors of IR-absorbing printing inks can be produced, this range of colors essentially comprising the so-called “dirty brown” tones.

In order to avoid this disadvantage, EP 0 553 614 A1 has already proposed so-called additives instead of carbon black as an IR-absorbing additive To use phthalocyanines that are essentially transparent or barely visible. However, these phthalocyanines have the disadvantage that they have to be prepared by a complex chemical process.

The object of the present invention is accordingly to propose a printing ink which has an IR-absorbing additive, which is inexpensive and easily available and which only slightly influences the printing ink in the optical spectral range.

This object is achieved by the features specified in the characterizing part of claim 1.

The invention is based on the knowledge that soot and graphite particles, both of which are made up of elemental carbon, have almost the same coloring effect in the visual spectral range. In addition, measurements in the IR show that the two particle types differ only insignificantly in their absorption behavior in the IR. Surprisingly, however, it has been found that the visual influence on a printing ink which is caused by the addition of graphite to this color is significantly less than the influence which occurs when the same amount of carbon black is added. Taking into account the fact that an increase in the amount of the IR-absorbing additive added leads directly to an increased IR absorption of the printing ink, it follows from this finding that significantly more graphite can be added for a predetermined color shade than this would be possible in the case of carbon black as an IR-absorbing additive, so that the use of graphite as an IR-absorbing additive for a given color shade can produce a considerably higher IR absorption than when adding carbon black. Usually, the color tones with which a document is to be provided are specified and contain no IR-absorbing additives. If this color is to be produced at least partially with IR-absorbing properties, it is possible with the additive according to the invention to reproduce this predetermined color by developing a new color formulation which contains the IR-absorbing additive according to the invention in a weight fraction of less than 7%. , but preferably less than 5%, based on the total weight of the paint. In a particularly preferred embodiment, the paint according to the invention contains less than 3% by weight of the additive. When graphite is added in the proportions mentioned, printing inks can be produced which have an IR reflectance of less than 50% and are therefore considered IR absorbing for the sensor used.

Although it is fundamentally possible to produce the IR-absorbing printing ink by adding the graphite powder directly in the desired amount to a printing ink, it has proven to be advantageous to first produce a "paste" as a semi-finished product in which the graphite powder is already homogeneously mixed To produce this paste, the graphite powder is mixed or dispersed, for example, together with a binder-containing transparent or opaque white paint and a thinner in a mixer or disperser until a paste is formed in which the graphite powder is homogeneously distributed According to another method, the graphite powder can also be processed directly into a homogeneous paste in a suitable binder - optionally with the addition of solvent - by mixing or dispersing. The paste containing the IR-absorbing graphite can be used directly for producing the IR-absorbing printing ink or can be stored for later use. In the production of the printing ink, the desired proportions of the paste are mixed with a base color and, if appropriate, further proportions of transparent or opaque white ink, so that the IR-absorbing printing ink is produced.

The printing ink produced in this way can now be used to print documents or other valuable objects in order to provide them with an IR-absorbing feature material.

Further advantages and advantageous embodiments of the invention are set out in the description of the figures below. The individual shows:

Fig. 1 shows the schematic production of an inventive

Printing ink,

2 shows a document of value provided with the printing ink according to the invention.

1 shows a basic illustration of the procedure for producing the printing ink according to the invention. In a first process step, a paste 4 is produced from a graphite powder 1 and a binder 2, which is present, for example, in an opaque or transparent white color, and a thinner 3, which serves as the starting material for the production of the printing ink. To produce the paste, the starting materials are mixed together in a mixer until the graphite powder in the desired amount is homogeneously distributed in the paste. In principle, the amount of graphite added is free in the production of the paste, but the graphite powder is advantageously used in an amount of 5 to 30% by weight, the thinner in an amount of 0 to 20% by weight and the binder in an amount from 60 to 90% by weight.

Only in a second process step is the printing ink, with which the document is to be printed, produced from paste 4 and other additives. For this purpose, the suitable portion of the paste 4 is mixed with a base color 5 and, if appropriate, an opaque or transparent white color 6 until a homogeneous printing ink 7 is produced which now has the desired IR-absorbing properties. The proportions of paste 4, base color 5 and opaque or transparent white color 6 can vary depending on the application and color. However, paste 4 is usually added in a ratio which ensures that the percentage of the IR absorber, based on the total weight of the printing ink formed, is less than 7%.

The procedure for producing the printing ink according to the invention is explained again below using concrete examples.

The ingredients are used to produce a first paste

7.5% graphite powder

10% thinner

82.5% transparent or opaque white color mixed together in a mixer until the graphite powder is homogeneously distributed in the mixture and a paste is formed.

The paste is then used to produce the printing ink according to the invention, whereby

240 g base color red or orange

30 g transparent white color

30 g of the above 7.5% graphite paste

are mixed until a homogeneous mixture is obtained which gives a slightly dirty-red or slightly dirty-orange color impression.

The ingredients are used to produce a second paste

25-30% graphite powder

70 - 75% varnish

mixed together in a mixer until the graphite powder is homogeneously distributed in the mixture and a paste is formed.

This paste is then used to produce the printing ink according to the invention, wherein

e.g. 220 g base color red or orange 50 g transparent white color

50 g of the above 25-30% graphite paste

One of the above-mentioned IR-absorbing printing inks is placed on a data carrier together or in succession with an ink of the same

Color tone applied, which is not IR-absorbent. The non-IR-absorbing color is mixed from the same base color red or orange with the help of a so-called "IR-transparent black" until the same color is produced that the used IR-absorbing printing ink has.

In addition to the basic colors red and orange mentioned in the examples, other colors can of course also serve as basic colors.

2 shows a document of value 8, in this case a bank note, which has been provided with a feature that is not visible to the human eye but is machine-readable with the aid of the printing ink according to the invention. For this purpose, a portrait 9 applied by intaglio printing is divided into two portions 10 and 11, the portion 10 of the portrait in a non-IR-absorbing ink and the portion 11 in an

Infrared absorbing ink is printed without a difference between the two colors could be recognized in the visual spectral range. The dividing line of the components is indicated by the line shown in broken lines from A to B. With the help of a Neten sensor, the authenticity of the banknote can be recognized by determining in the testing machine that the portion 11 is absorbing in the infrared.

In addition, there are a multitude of possibilities for using the printing ink according to the invention on its own or together with a printing ink of the same color but not absorbing in the infrared in order to identify data carriers, in particular documents, or to protect them from forgery or falsification. For example, it is possible to apply the non-IR-absorbing printing ink over a large area as background printing and to apply the IR-absorbing printing ink in a pattern above it, so that no identification can be visually recognized. The pattern of the IR-absorbing printing ink against the background of the non-absorbing printing ink can only be recognized with the aid of an IR sensor. Barcodes, value-specific representations, texts, characters, patterns or images are particularly suitable as samples, which can then be evaluated with the aid of a suitable evaluation unit to prove the authenticity of the document.

Of course, it is also possible to apply an IR-absorbing printing ink in the form of a pattern mentioned above to a partial area of the data carrier, and only to cover the surface areas which are not filled by the pattern of the IR-absorbing printing ink with the non-IR-absorbing printing ink. so that again no pattern is recognizable in the visually recognizable spectral range, while the pattern can be clearly detected in the infrared. All common printing methods, such as, for example, steel engraving, offset printing, transfer printing, flexographic printing, can be used as the printing process, alone or in combination with one another.

Claims

Patent claims

1. Printing ink for use as a security marking on a data carrier, which has an infrared-absorbing additive, characterized in that the infrared-absorbing additive is graphite.

2. Printing ink according to claim 1, characterized in that the graphite in the printing ink in an amount of less than 7% by weight, preferably less than 5% by weight, in particular less than 3% by weight, based on the total weight the printing ink.

3. Semi-finished product, such as paste, for the production of a printing ink according to claim 1, which has an infrared-absorbing additive, characterized in that the infrared-absorbing additive is graphite.

4. Semi-finished product according to claim 3, characterized in that the proportion by weight of graphite in the semi-finished product is less than 30%, in particular less than 10%.

5. A data carrier, such as a document, in particular a banknote, identity card, passport, check, share or the like, which has a printed marking with a printing ink which contains an infrared-absorbing additive, characterized in that the infrared-absorbing additive is graphite.

6. Data carrier according to claim 5, characterized in that the infrared-absorbing printing ink is printed in the form of a pattern, image, logo, binary code or alphanumeric characters.

7. Data carrier according to one of claims 5 or 6, characterized in that the graphite in the infrared-absorbing printing ink in a proportion of less than 7%, preferably less than 5%, in particular less than 3% by weight, based on the total weight the printing ink.

8. Data carrier according to one of claims 5 to 7, characterized in that in addition to the infrared-absorbing printing ink there is a further printing ink which is not infrared-absorbing and has the same hue as the infrared-absorbing printing ink.

9. A data carrier according to claim 8, characterized in that the infrared-absorbing printing ink and the non-infrared-absorbing printing ink are at least partially superimposed.

10. A data carrier according to claim 8, characterized in that the non-infrared-absorbing printing ink is only present in those areas which are not covered by the infrared-absorbing printing ink.